Mcm27
MCM-27 is the designation given to a crystalline zeolite within the Mobil Crystalline Materials (MCM) family, a group of synthetic microporous aluminosilicate materials developed by Mobil researchers. MCM-27 is typically produced by hydrothermal synthesis using organic structure-directing agents, followed by calcination. The resulting material forms a three-dimensional aluminosilicate framework with a network of uniform micropores, enabling high surface area and shape selectivity for catalytic and adsorption processes. The framework acidity is introduced through aluminum substitution in the silicon lattice, creating Brønsted acid sites that drive many hydrocarbon reactions.
In catalytic applications, MCM-27 has been studied for reactions such as cracking, isomerization, and alkylation, as
As part of the MCM family, MCM-27 is related to other well-known materials such as MCM-41, MCM-22,